RU2179798C2 - Method to cultivate tomatoes - Google Patents

Abstract

FIELD: agriculture, greenhouse management. SUBSTANCE: the method deals with a peat substrate which is additionally supplied with Kemira-Super fertilizer, magnesium sulfate and dolomite meal together with chalk. At the same time, a peat substrate is prepared at the following ratio of ingredients, weight%: Kemira- Super fertilizer 1.3-1.9, magnesium sulfate 0.2-0.4, dolomite meal 9.0-11.0, chalk 4.0-6.0 and peat - the rest. Peat has a decomposition degree being under 10%, ash content being under 2% and pH (KCl exchange) being under 3.0. The method enables to increase a crop yield of tomatoes due to optimization of substrate's moisture capacity, increase of aeration porosity due to optimal ratio of not only macro- and microelements, but that of solid, liquid and gaseous phases in a substrate. EFFECT: higher efficiency of cultivation. 1 cl

Description

 The invention relates to a method for growing tomatoes in greenhouses on a small amount of substrate.

 Currently, mineral wool, peat, cocovite, zeolite or a mixture of peat with zeolite in different ratios are used as a substrate.

 Currently, there is a known method of growing tomatoes on pure zeolite in a low-volume version (see application 97117725/13 of 10.28.97, class A 01 G 9/00; 31/00, Bulletin of the Invention 28 (1 h), 1999 .). The essence of this method lies in the fact that pure zeolite with an optimal ratio of silicon and aluminum (SI / Al = 3.6) is used as artificial soil mixture. The ratio of sodium and calcium is less than the sum of calcium and magnesium. At the same time, in this method, the zeolite is placed in a greenhouse in a low-volume version - in plastic bags and containers for additional introduction of organic materials.

 However, this method of growing tomatoes in this substrate has the following main drawback, which is that the ratio of nutrients in the substrate is unbalanced, which negatively affects the development of tomatoes in general.

 The closest in technical essence to the claimed volume is a method of growing tomatoes on a peat substrate. consisting of 3 parts sifted peat, 1 part sand, having particles of the order of 2-4 mm, 30 g of John Innes main fertilizer and 30 g of lime per 10 l of the mixture (see F. Macmillan Brown. Plant propagation. - M .: World, 1992 p. 25). The main fertilizer "John Innes" consists of 2 parts of superphosphate, 2 parts of bone meal and 1 part of potassium sulfate (see K. Becket. Plants under glass. - M .: Mir, 1992, p. 88). All components are thoroughly mixed until a balanced and homogeneous final product is obtained. At the same time, all components are evenly poured in the required quantities and lime and fertilizers are added to each layer of sand and mixed thoroughly.

 The disadvantage of this method is that the ratio of the batteries in this substrate is in an unbalanced state. At the same time, in this substrate in the future there is a rapid leaching of the introduced components due to the use of instant forms of fertilizers in it. All these shortcomings lead to the blocking of the supply of certain nutrients at certain stages of tomato cultivation, their toxic poisoning and, as a result, lower yields.

The aim of the invention is the elimination of known disadvantages. This goal is achieved by the fact that the growing method is carried out on a peat substrate in a low-volume version. According to the invention, Kemira-Super fertilizer, magnesium sulfate and dolomite flour with chalk pre-mixed with each other are added to the peat substrate. At the same time, a peat substrate is prepared in the following ratio of ingredients, wt.%:
Fertilizer "Kemira-Super" - 1.3-1.9
Magnesium sulfate - 0.2-0.4
Dolomite flour - 9.0-11.0
Chalk - 4.0-6.0
Peat - Else
Peat for substrate production has a decomposition degree of less than 10%, an ash content of less than 2%, and a pH (Ks1 exchange) of less than 3.0.

The Kemira-Super fertilizer, in turn, includes both the main macroelements in the ratio (N - 11; P ₂ O ₅ - 24; K ₂ O - 24; S - 6,2), and a small set of microelements with high Fe content - 0.5%, B - 0.08%, Cu - 1%, Mn - 0.4%, Zn - 0.2%, Mo - 0.1%.

 The inventive method is as follows.

 Currently, low peat peat is used as a substrate for growing tomatoes in a low-volume version, because It combines high water holding capacity with high aeration porosity. At the same time, peat is a sterile substrate free from pests, weeds and pathogens. Compounds of a humic nature contained in peat possess the properties of biologically active substances, i.e., they are stimulants of tomato growth. The main component of the substrate is top peat with a decomposition degree of less than 10%, an ash content of less than 2%, and a pH (KCl exchange) of less than 3.0. Peat is evenly stacked in a stack with a height of not more than one meter and the top area of the stack is laid out per square meter. Then, the remaining components are scattered on the surface of the peat stack in even layers, after which they are thoroughly mixed until a final product with a homogeneous consistency. This results in a light, sterile, easy-to-handle peat mix, used preferably for growing tomatoes in greenhouse conditions. When developing a rational nutrition system, the characteristics of the cultivated culture, the intensity of absorption of nutrients and the relationships between the consumed nutrients during the growing season were taken into account.

 The resulting peat substrate is placed in plastic bags, which are placed in greenhouses, then the peat mixture is moistened and tomato seedlings are planted in it. This substrate allows you to well develop not only the root system, but also further contributes to the normal vegetative growth and fruit formation of tomatoes. Moreover, the use of Kemira-Super fertilizer in combination with magnesium sulfate inhibits the vegetative growth of tomatoes in the early stages of planting when lighting conditions are insufficient.

 The main purpose of maintaining a mixture of dolomite flour with chalk in peat is to neutralize the acids present in peat. The need for these substances depends on the acid content and a given pH value. As such material, when using peat with a low degree of decomposition, in our particular case, we use a mixture of dolomite flour with chalk, which can be used in rather large quantities without the risk of raising the substrate pH to a negative level. Using the proposed mixture for a long time, the need of tomatoes for magnesium and calcium is satisfied, because in a finished substrate, the ratio between them corresponds to the needs of tomatoes.

 Dolomite flour has the ability to slowly deoxidize peat, and chalk implements this process much faster. Moreover, in the early stages of tomato development, the acidity of the substrate is maintained in optimal sizes mainly due to the presence of chalk, and the required amount of magnesium in the early stages is obtained from magnesium sulfate introduced into the substrate. At the next stages of development, tomatoes are provided with magnesium due to its presence in dolomite flour. Excess dolomite flour in the substrate leads to an excess of magnesium, which is released into the solution in the middle of the tomato growing season, which causes an imbalance in the ratio of elements in the nutrition system.

 This leads to fruit damage by apical rot, the main reason for the appearance of which is an excess of magnesium in dolomite flour. If chalk predominates in the substrate, then an excess of calcium will occur, which creates a blockage of iron intake in plants. This will lead to discoloration of the plants and the death of brushes with fruits. However, a balanced substrate for all the basic elements, including dolomite flour and chalk, will provide the tomatoes with magnesium and calcium, which helps optimize the vegetative growth of tomatoes at all stages of their development.

 All the distinguishing features of the proposed method are significant, because they affect the achievement of a technical result and are in a causal relationship with the result. The above-mentioned features of the invention when the patent and information search in the prior art were not found, in connection with which we can conclude that the claimed invention meets the conditions of patentability, provided for by Article 4 of the Patent Law of the Russian Federation.

 At the same time, the claimed solution ensures the creation of a positive effect, i.e., a new higher result compared to the result obtained from the known method, taken as a prototype.

 By the proposed method, the moisture capacity of the substrate was optimized, the aeration porosity increased, which led to the optimal ratio of solid, liquid and gaseous phases in the substrate.

Pilot production tests conducted at the Teplichny state farm, using the proposed method, increased the yield of tomatoes to 36-37 kg / m ² .

Claims (2)

1. A method of growing tomatoes, including the preparation of a peat substrate, characterized in that the peat substrate is prepared by adding Kemira-Super fertilizer, magnesium sulfate, dolomite flour and chalk to the peat in the following ratio of ingredients, wt. %:
Fertilizer Kemira-Super - 1.3-1.9
Magnesium sulfate - 0.2-0.4
Dolomite flour - 9.0-11.0
Chalk - 4.0-6.0
Peat - Else
after which all components are mixed until a final product of uniform consistency is obtained.  2. The method according to p. 1, characterized in that they use peat with a degree of decomposition of less than 10%, an ash content of less than 2% and a pH (Ks1 exchange) of less than 3.0.